Friday, 19 June 2015

Benefits of Using Battery Powered LED Lighting at your Event

LED technology has improved a lot in the past couple of years. In the past, LED lights were too expensive, and they were only available in low wattages. But as the technology advanced, LED lights became more affordable and are now powerful enough to illuminate a large area at night. There is now battery powered LED lighting solutions on the market that can be used for your event.

Traditional flood lights are often high-pressure sodium lights that utilises sodium in an excited state to produce light. While HPS lights are bright and can be used to light up a large area, they are now being replaced by wireless flood lights made of LED. HPS lights often contain mercury, which is harmful to one’s health. On the other hand, battery powered LED lighting doesn’t have any toxic elements and considered safer. Below are other benefits of using LED lights for your event.

Energy Saver

When you use portable flood lights made of LED, you will be able to save 70 percent to 90 percent energy compared with other type lights, such as halogen or incandescent lights. You’ll be able to reduce the costs of your event because you are using less electricity to illuminate the area.

Less Trouble in Setting Up

Battery powered LED lighting can be placed anywhere you want them to be. You don’t have to deal with wires, which can be unpleasant to the guests. With wireless flood lights, you reduce the risks of guests tripping over wires.

Low Temperature

Another good property of LED flood lights is that they have low operating temperature. Majority of traditional flood lights generate a large amount of waste heat when they are in use. Not only do they generate a lot of heat, they are also less efficient. On the other hand, LED lights emit little heat and are more efficient. That’s why LED portable flood lights are considered the most cost efficient lighting solution for events.

Longer Lifespan

One of the properties that LED lights possess is longevity. In general, LED lights can last up to 50,000 hours, which is a lot longer compared to other types of lights. The probability of LED lights going out during the event.

Mercury Free

Battery powered LED lighting doesn’t contain any mercury or any other toxic substances that are often found in HPS flood lights. That makes LED lights safer to use with regards to the environment and human health.


As you can see, battery powered LED lighting is the perfect choice of any event. Organisers often use LED lights for their events because of the benefits they can get from using them. LED portable flood lights are more cost efficient than any other types of lighting. 

Monday, 18 May 2015

Benefits of Temporary Buildings

Temporary buildings can be seen everywhere, in street fairs, military bases, sports grounds, and even disaster areas. They are usually used for a limited time only before being disassembled and packed away for later use. Encyclopaedias define temporary buildings as structures that are erected to help construct permanent buildings. Although there is truth in this definition, temporary structures, nowadays, have become more than that.

Advantages of Temporary Buildings

Temporary structures these days have become more interesting because of the numerous advantages that they offer. For starters, they are so easy to assemble compared to permanent structures because they don’t require any foundations to be built. This means that they can be set up faster expediting their use no matter what type of flooring you’re going to put it up on.

Temporary buildings are also versatile because they can be expanded anytime and can actually take on any configurations as needed. A perfect example of this is temporary sports halls where the structure can have add-ons to accommodate the number of people attending the event.

Another advantage to this type of structure is that since the materials used are lightweight; they can be transported easily. And because they can be easily disassembled, they can be moved as a whole or in parts minimising the time needed for dismantling and erecting these temporary structures.

These temporary buildings also come in different designs to suit your preferences. You can actually find shelters made from this type of structure that can be made to look like a regular house with matching windows, doors, insulations, and even security systems. Also, the interiors can be customised to meet your requirements regardless of whether you’re just going to use it as an office space, an extension of your home or for your gardening needs.

What’s great about temporary structures is that they have plenty of accessories for you to choose from. From flooring to interior designs, all the way to the roofing and walls, there are quite a number of choices available. You can even add cooling and heating systems, glazed windows, and even lighting and signage if you want.

The biggest advantage to temporary buildings is that they cost less compared to permanent structures. This is good news for those who are looking for a building that they can use on a budget. This is also one of the reasons why this type of structure is often used by government and private companies especially when it comes to big events because they don’t cost a lot plus they’re so easy to build that they can provide shelter quickly to those who are in need.


Regardless of whether you are looking for temporary sports hall, temporary shelter or even temporary office base, you can get more out of investing on temporary buildings for sale today.

A Better Home, A Better Life with Solar Panels

Have you ever thought about how having solar PV panels installed on your home may be one of the best decisions you will ever make in your life? Not a day goes by that you forgo the use of gadgets and other innovations because you want to make things easier and more convenient. However, these modern conveniences make use of electricity and, therefore, would cost you a lot of money. More important than that, they do have a bigger impact on the world you live in.

A solar PV or photovoltaic panel is a device used to convert light or heat from the sun into electricity. Making use of a solar panel electricity system to run household appliances, lighting, heating, and air conditioning will benefit you in more ways than you think.

Reduce Your Electricity Bill

Enjoy the comforts of your home without having to pay much for them. The most obvious advantage of using these solar panels is saving your money. There will be a significant reduction in the amount of money you have to pay for electricity. How significant? The bigger the size of the solar panel system, the greater the reduction in your electric bill. The source of energy, which is the sun, is free so all you have to pay for is the installation and maintenance cost.

Increase the Value of Your Home

Making improvements such as having solar PV panels will definitely increase the value of your property. Most people looking for houses for sale are not just interested in the aesthetic appeal but also on how good an investment buying the house is going to be. The resale value of a house with solar power is considerably higher than those without it because of the great reduction in electricity costs.

Government Subsidies or Tariff schemes

You are not just saving money in your electricity bill with solar panel installation, but you can also earn them. There are programs from the government for energy independence, so subsidies, tax credits or tariff schemes are available to those who are solar powering their homes. Check on the requirements such as the installer and products have to be properly certified to make you eligible.

Cut Down Your Carbon Footprint
A carbon footprint is basically the sum of all carbon dioxide emissions that were induced by your activities in a given time frame. Carbon dioxide is generated when you drive your car, use electricity, or heat your home using gas, oil or coal. The more carbon dioxide is released into the environment, the more harmful it is. Heat waves, floods, droughts, and extreme weathers are but examples of the danger of global warming and climate change. Solar PV panels do not release any pollutants that are harmful to the planet.


Having a better life is easier than you think, and it starts with using solar power on your home. It would only cost you the installation and maintenance fees, and the benefits are so many. You are not just improving your life but also saving the planet. How cool is that!

Monday, 12 January 2015

Delivering Projects



iGAS have a well-established and structured system to enable the effective delivery of projects: iProject is ISO9001 and CDM compliant and is continuously being reviewed and improved.
It provides the road map that all projects follow and is structured with appropriate documents and templates, allowing the Project Director and Project Manager to include the relevant sections for each project.
For every project a Project Team is allocated including:

  • Project Director
  • Project Manager
  • Project Engineer(s)
  • Design Engineer(s)
  • Administrator(s)
A Team Roles (and Competency) document is generated at the beginning of a project (if applicable) and is distributed to you, the Client, ensuring that you have all the contact details of those involved with the project.
The Project Team will utilise the engineering capabilities of iGAS that are required by the project scope. The engineering capabilities include:

  • Project Management
  • Process Engineering
  • Electrical Engineering
  • Drafting
  • Civil & Structural Engineering
  • Mechanical Engineering
  • Instrument Engineering
iGAS understand the importance of information technology in today’s world and, as such, has developed an internal IT infrastructure to utilise the technologies available to support and improve the projects undertaken by iGAS:

  • SPARCS – in-house developed internal database software
  • Project File Storage server
  • Versioning and Auditing control
  • Task Management
  • Issue Tracking
  • Support Management
  • Project File Sync for all Project team members
  • Smart Phones
  • 3G Modems
  • High-speed Broadband
  • Web Interface
  • Remote Automatic Backups

We believe in continuous improvement and are regularly reviewing our internal procedures, documents, designs, systems, projects and technologies.

Monday, 3 November 2014

The Benefits of Buying Mezzanine Flooring



People who own their own business know that having enough space for merchandise and various other items is crucial. A space that is small may have limited areas available for storage. This can be an issue once the business starts to grow. If moving to a new building or expanding the existing building cannot be done, then another option is necessary. One solution is to install mezzanine flooring to maximise all available space in an area. Review some of the advantages mezzanine flooring has to offer.

The Basics

Mezzanine flooring is a type of flooring structure that is similar to a floating floor. The reason this type of flooring is necessary is to create additional storage using existing space. A frame will be installed on the existing floor and a new underlayment will then be added. Compartments can be created to use as a place for extra storage or for wiring and cables for electronics. This is a great option for a building with high ceilings, such as a warehouse, a distribution centre, production facility, or other areas where space is not being effectively utilised.

Cost-Effective

Adding extra space to a building is often an expense many business owners cannot afford and is not an option is they building is being rented. Adding mezzanine flooring is a cost-effective solution that does not require spending a great deal of money. Another aspect to consider is any construction necessary to complete a building project will take time. Installing new flooring can be done in less time and for less money. Another benefit is little disruption to the daily operations of a business.

Creating New Space
This is the most obvious advantage of installing mezzanine flooring. There is immediate space created that can be used for any purpose. Many companies are eager to reduce costs. Adding additional storage is a great way to eliminate costs for renting a warehouse or storage area.

Utilising Existing Space

Many buildings often have space that is wasted or not being used properly. Adding mezzanine flooring allows a business to store away items that may be taking up space in a room that could be converted to an office or a conference room.

Computer Equipment

A business that is installing computer equipment that needs to be networked requires connecting wires and various cables. If there is insufficient space under the existing floor, then more tedious methods to hide the wiring are necessary. The installation of mezzanine flooring offers a great way to run any type of wiring and cables that are necessary when new equipment is added.

Lower Heating Costs

Raising the existing flooring can benefit by lowering heating costs. Colder air can be moved out under the mezzanine flooring and create a warmer environment in an office. This can reduce the need for any unnecessary heat.

A business that is looking for a cost-effective option for increasing storage has many options. Adding a mezzanine flooring system is a great solution for a warehouse or other building with a high ceiling.

What do Aerospace engineers do?



Sphere of Work
Aerospace engineers design, develop, test, maintain, and assist in the manufacture of different types of aircraft, missiles, spacecraft, and other technologically advanced modes of transport. Aerospace engineers in the field of aeronautical engineering work on civilian and military aircraft, which may include helicopters, airliners, fighter jets, missiles, and other airborne craft. Aerospace engineers in the field of astronautically engineering work with satellites, rockets, and similar space-bound technologies. Aerospace engineers focus on aerodynamics, propulsion, hull composition, communications networks, and electrical systems.

Work Environment
Aerospace engineers typically work in government or business offices, where they manage administrative tasks, design models and schematics, and write reports. They also spend time working in laboratories, industrial plants, and manufacturing facilities, where they work with other technicians to assemble systems and aircraft. Those engineers who work in astronautically engineering also work at launch facilities, while aeronautical engineering typically requires spending time at noisy airfields. Aerospace engineers generally work in several complex and busy locations over the course of a project, with many separate activities taking place simultaneously. They work a regular forty-hour workweek, although longer hours may be required as deadlines draw near.

Occupation Interest
Aerospace engineers are part of an exciting industry, one that helps develop high-speed trains, deep-sea vessels, missiles/rockets, commercial airliners, and many other large aircraft and spacecraft. They use the most advanced technology to design, build, test, and maintain these vehicles. Because they have expertise unique to their field and area of specialization, aerospace engineers receive highly competitive salaries. The job market for aerospace engineers is continuously growing, thanks to the sales of new aircraft and missiles, as well as growth in the commercial airline construction industry.
  
A Day in the Life—Duties and Responsibilities
There are two basic types of aerospace engineers aeronautical engineers (who focus on aircraft, missiles, and other “earthbound” technologies) and astronautically engineers (who focus on spacecraft and space exploration technologies). Both aeronautical and astronautically engineers further specialize in certain types of products or product features. Aerospace engineers create conceptual designs of aeronautical or astronautically vehicles, instrumentation, defence systems, guidance and navigation systems, and propulsion systems according to the specifications of the client. They also improve the structural design of existing aircraft and spacecraft. Some engineers specialize in innovating more sophisticated production methods. All of these design and development processes include practical steps such as analyzing production costs, developing quality control standards, and testing methodologies, as well as establishing timelines for project development and completion. During the course of construction and/or assembly, aerospace engineers travel to the production site and conduct inspections and tests on the systems to ensure that they are operating efficiently and according to the needs of the client. Many aerospace engineers assist in the production phase, integrating systems and examining components as they are being built.

When production is complete, the aerospace engineer creates performance and technical reports so that customers have a full knowledge of the vehicle’s capabilities. He or she retains copies of such reports for future reference. In the event that the vehicle or a vehicular system malfunctions, aerospace engineers play an important role in the investigation, examining damaged parts and reviewing performance reports and other documentation to determine the cause of the malfunction.

Work Environment
Immediate Physical Environment. Aerospace engineers spend long hours working at drawing boards in offices but also spend significant amounts of time working in laboratories, manufacturing facilities, test facilities, and airfields. These locations are generally clean, very well organized, and well ventilated. There are physical risks when working with or in close proximity to machines, electricity, manufacturing chemicals, and engines, so safety protocols are strictly enforced.
  
Human Environment
Aerospace engineers work with many other professionals, including engineers with different specialties. They interact with electricians, technicians, construction personnel, forklift and other heavy machinery operators, physicists, chemists, and project managers.

Technological Environment
Aerospace engineers use a variety of analytical tools and sophisticated technology in their daily work. Computer-aided design (CAD) and computer-aided manufacturing (CAM) software, as well as a variety of computer modelling and design programs, are used for planning and design. Analytical and scientific software help aerospace engineers to examine thermal patterns, complex mathematical formulas, and other aspects of systems engineering. At test facilities, engineers use such tools as flow meters, lasers, and vibration testing equipment.

Education, Training, and Advancement
High School/Secondary. High school students who intend to become aerospace engineers should study mathematics, including algebra, applied mathematics, trigonometry, calculus, and geometry. Physics, chemistry, and other laboratory sciences are equally important. Computer science courses expose high school students to design and analytical software, while industrial arts courses expose them to mechanical equipment, such as engines and electrical systems. High school students interested in the field of aerospace engineering must apply to related college or university programs.
  
Postsecondary
All aerospace engineers must have at least a bachelor’s degree in engineering. Most obtain a master’s degree or a doctorate in engineering, mathematics, or natural sciences. Some universities and colleges offer two- and four-year degrees in engineering technology. These programs give students direct exposure to applied engineering, which is useful for future design and production work.

Friday, 17 October 2014

What are latex compounds?

Natural latex is produced from the Hevea Brasiliensis rubber tree. These trees are found in Thailand, Indonesia, Malaysia and Liberia and as such are usually processed and shipped from these locations. Natural latex is a white liquid that is produced from these trees and when the latex is delivered to a processing station is where it is strained and concentrated. The latex has to be collected before coagulation can occur. The latex is processed by being put into a centrifuge, stabilizers are added, water is removed and increases the rubber content of the latex. After this process has been completed it is now known as latex concentrate and contains 60% rubber.

It becomes a compound when other raw materials are added to it. These are usually water based to achieve the desired performance characteristics. Custom latex compounds are using in a variety of markets, industries and has many uses. It has unique physical and chemical properties such as elasticity which makes it even more useful.

There are a few kinds of compounds:
Precoat - Compounds based on styrene-butadiene latex, filled or not filled with calcium carbonate. This is typically used in primers and carpets
Secondary Backing - Compounds based on styrene-butadiene latex, filled or not filled with calcium carbonate. This is used in thread of tufted and needle carpets.
Self-gel Foam - ​Compounds based on a mixture of natural latex with latex based on styrene-butadiene, filled or not filled with calcium carbonate. It is necessary the use of a vulcanizing agent. Engraving accepted without addition of a gelling agent. When using infrareds the product solidifies. This usually has great water resistance and superior qualities.
Sodium Silicofluoride Gel Foam​ - Compounds based on a mixture of natural latex with latex based on styrene-butadiene, filled or not filled with inert filler. After applying a gelling agent and using infra-reds the product solidifies.
Automotive Compounds - Compounds based on carboxylated styrene-butadiene latex, with carboxilato, available in various hardnesses, for thermoformables. This is typically used in mats and other uses in vehicles.
Flame Retardant and Anti-static Compounds - Flame retardant latex compounds, compliant with numerous regulations which is usually used in coatings.

Close to 20 million tonnes were produced over the last year with only 42% of this being natural - making synthetic compounds far more popular today.

In the paint and coatings industry latexes have become more popular since the 1940s and these synthetic latexes use a binder in water that forms films by fusion of the plastic particles as the water evaporates. The properties of this such a hardness, flexibility, adhesion, colour retention and the resistance to other chemicals are highly useful in this industry.
Other uses include:
  • Household, surgeon and industrial work gloves
  • Catheters
  • Condoms
  • Balloons
  • Carpets
  • Automotive parts
  • Special effects make up
  • Body paint
  • Clothing
  • Shoes
  • Toys
  • Masks
  • Road construction
  • Waterproofing
and many more. There are endless uses for latex compounds today. So much so that there are probably many products in your home that you didn't even realise used a latex compound. Latex compounds are extremely versatile and can be used in almost anything!